Thanks a lot for your reply.
Both recommended apps don't help at footprint creation.
Anyway - I read a lot about footprint creation and I think, I'm done with geda. If I got it right, it does not support pads on different layers for a single footprint, so no support for cardslots and the like ...
so eagle remains unbeaten

QuoteDeuxVis
The Gen7 I built works like a charm with Teacup, but I have some freezes during prints : printer stop moving, and doesn't reply to host software (printerface) until I reset it.

I suspect some electrical interference, but how to find if they happen on the usb cable or comes from the PSU ?

I just recently got my Prusa Mendel printer up and running, so I haven't gotten much beyond initial calibration. I have been experiencing freezes mid print using Teacup on a Gen 7 board similar to the conditions you mention. I have to reset on the board as well as the software becomes unresponsive.

If you have a repeatable test case (it stops always at the same position), it's most likely a firmware issue. The Teacup folks would love to see such a testcase, something reproducible is neccessary to allow fixing it.

QuoteFirst of all I want to congratulate you for the Gen7 Board-AVR 1.5. I have been using it since 2013 to now in my Prusa IT3 and I´m very happy with it, it´s 1000 times better than the fake chinese ramps I am using at my delta.

NXP lists this part as active [www.nxp.com], so I'm not sure why they're out at stock on the major suppliers. MCUs in a DIL package going away would pretty much mean the end of DIY-able controllers :-/

That said, I have plenty of them, € 5.- a piece. Or € 22.- together with all other electronic components used on this board: [www.reprap-diy.com].

QuoteTraumflug
... MCUs in a DIL package going away would pretty much mean the end of DIY-able controllers :-/

... yes, this would make it hard for the typical craftsmen ... but populating and soldering SMD is doable in DIY-scale too, if using a stereo-microscope (got two for 30€ and 60€ from ebay), fine soldering iron tips and 0,3mm thick solder wire

Good question. Swapping the DIL chip for a SMT (0.65 mm pin pitch) one is easily doable, but what's the point of a Gen7, then? Wherever I look I see requests for more and more complex controllers (Bluetooth, WiFi, 6, 8, 10 steppers, web server, ...), next to never wishes for simple, rock-solid, DIY-able ones.

Folks thinking that Generation 7 Electronics should enter the SMT era: NOW is the ideal time to speak up!

For example, being forced into SMT anyways also means there's no longer a reason to stick to a Cortex-M0, Cortex-M4 are just as easy to handle. And these have been demonstrated to generate step rates 100 times higher than a RAMPS: 1'598'000 steps per second.

QuoteVDXpopulating and soldering SMD is doable in DIY-scale too, if using a stereo-microscope

Microscope. Ha ha.

Over time I got a number of comments expressing fear about this MCP2200 chip on the copper side of the Gen7, which is SMT. 1,27 mm pin pitch and fairly easily handleable with bare fingers, still people don't trust it. And these SOIC chips are rare, too.

Quoteobelisk79
NXP had apparently tried to discontinue the LPC1114FN28 earlier this year, but someone else had contacted them and they decided to renew production.

That's good news! Another advantage of these genuine DIL chips over an adapter is that they're 5V-tolerant out of the box.

QuoteShank man
It's just not a simple process of buying things from Germany and getting them delivered to the US of A in a reasonable amount of time.

The process is as simple as sending address and funds, like in every shop. Shipping to the US typically takes three days plus the time inside the US (which can apparently be another 7 days). Actually I shipped more Gen7 kits to the US than to inside Germany so far :-)

QuoteShank man
I can remove the suggestion if you like.

Thanks for the offering, but thanks, not necessary. My wellbeing doesn't depend on these Gen7 sales.

QuoteTraumflugThe process is as simple as sending address and funds, like in every shop. Shipping to the US typically takes three days plus the time inside the US (which can apparently be another 7 days). Actually I shipped more Gen7 kits to the US than to inside Germany so far :-)

I've found soldering LFQP chips easy enough using solder paste and a hotplate. In fact it was from instructions for building an earlier generation of RepRap electronics, by Adrian Bowyer himself AFAIR, that I first learned of this method. But I appreciate that soldering a through-hole IC is even easier.

A hybrid solution would be to produce a daughter board carrying an ARM 4 chip such as the ATSAM4S8B or 8C along with the critical components such as the crystal and decoupling capacitors, that can be plugged in to socket strips on a 2 layer PCB or even perfboard. Buying such a daughter board from Traumflug would be little different from buying one of those DIL packaged processors that are becoming scarce. The purists could still buy those components separately and solder them on a hotplate.

This modules can be of any type and either "single-" or "double-sized", like in the image ... or any other size or configuration ...

Some years ago I've assembled/stacked micro-sensors and complex assemblies with pitch sizes of 60 to 100 microns and soldered or brazed wires with 10 microns or even thinner on them - this image shows a small section of one of this "micro-sensors" with 10µ and 1µ wires across a gap:

QuoteShank man
I’m kicking myself for not buying a extra MCU when they were available

Quoteobelisk79
That is an interesting adapter.

So you two prefer to buy a $6 adapter plus a $4 chip over a $5 genuine chip?

One reason against designing a new(er) board is the observation that quite a number of people try very hard and often at additional expenses to avoid buying from the original designer. Just saying.

I admit to be taken aback by this remark. My suggestion of using the TSSOP28 to DIP28 adapter was not to deprive anyone of a revenue stream or to save a few dollars but only to perpetuate the life of the controller by using a LPC1114FDH2/102 instead of the obsolete LPC1114FN2/102 MCU. The latter has been discontinued regardless of that letter posted by NXP. If its still in production why isn’t anybody stocking it? Because there is no demand for them that’s why. Whether or not using the adapter chip is a feasible solution, I don’t know, that’s why I put it out there.

Also who in world builds a controller like this to save money? No one, that’s who. I have over $250.00 wrapped up in the 2 I built. Copper clad boards, etching solution, soldering iron & solder suckers, those little drill bits that break just taking them out of the package all add to the cost. Not to mention buying 2 ATX power supplies when I already had a couple of MeanWells. There was no money saved. I can afford any controller out there but this is the one I wanted so I did what it took to get them. If you have an issue with people buying the parts from places other than yourself, why do you post a detailed parts list and assembly instructions? Why don’t you lock down the design and sell assembled boards? I would have gladly bought a couple pre-assembled ones. I’m certainly not adverse from buying parts from you but
your site isn’t very commerce friendly. I just want to put in my address and credit card information and
be done with it. Anyway I’m satisfied with the controllers I have and feel they were well worth the effort to build and the expense it took to get them.